Formation and evolution of melt holes on vine-shoots during the winter in Quebec

• Main Authors: G. Bertrand Carrière, Yvon Jolivet, Jean-Marie Dubois
• Format: Article
• Language: English
• Published: International Viticulture and Enology Society 2002-09-01
• Series: OENO One
• Subjects: melt holes; oscillation hole; hybrid vine; snow cover; microclimate; protection against cold; thermal regime
• Online Access: https://oeno-one.eu/article/view/1688

Vine cultivation in Quebec is confronted with the problem of an unfavorable climate specially because of winter frost. Over the last few years, artificial snow has been used, at the experimental level, as one of the protective methods implemented during winter at the Sous les Channilles vineyard, in southern Quebec. However, towards the end of January, the increase in solar radiation intensity is instrumental in causing the fonnation of inelt holes along the vine shoots thus reducing the protective effect of the snow cover. According to varying climatic conditions, we show that there are many factors at the origin of the formation and the metamorphoses of melt holes. These melt holes can be fonned by sublimation or fusion of the snow and can sometimes present mixed fonns. Through their presence, they modify the vertical temperature gradients in the snow cover and play a primary rôle in the evolution of snow metamorphoses near the stocks. The formation of melt holes near the vine shoots can also damage the fruit buds submitted to cold temperatures prevailing on the surface. The empty space created near the stocks can permit the infiltration of cold air and, in situations of extreme cold, damages can be sustained by the fruit buds. On the other hand, our observations also show that, when melt holes are covered by snow, a constructive metamorphosis is initiated and the melt holes can fill themselves up through the evolution of internal frost. If the melt holes are not too large, the formation of frost can obstruct the surface orifice and restrict the infiltration of cold air from the exterior within the snow cover. Furthermore, the widening of melt holes early in the spring can cause the premature disappearance of the snow cover in the vine rows and, accordingly, can expose the buds to congelifraction temperatures below the cryotolerance threshold. Artificial snow is more efficient than natural snow in the sense that, since its volumetric mass is normally superior to that of natural snow, the development of melt holes is a lot slower. Accordingly, artificial snow provides more durable protection in the spring. The study of the pro¬ cesses controlling the formation and the evolution of melt holes has also shown the large variability of the snow cover according to local meteorological conditions. Finally, the understanding of the processes at the base of the formation of melt holes sheds new light on the rôle of snow in agriculture.